select age from person where name in (select name from eats where pizza="mushroom") 

I am not sure what to write for the "in". How should I solve this?

  • 1
    Double quotes are for (delimited) identifiers. Do you have a column called mushroom? (Use single quotes for string literals.) – jarlh Aug 30 '16 at 9:33
  • select age from person where name in (select name from eats where pizza='mushroom') – Ahmad Aghazadeh Aug 30 '16 at 9:37
  • go and first check what relational algebra is!!! – Babua Pantu Aug 30 '16 at 9:38
  • Please give a reference to what "relational algebra" you are to use. – philipxy Aug 30 '16 at 14:48

In this case the sub-select is equivalent to a join:

select age 
from person p, eats e
where p.name = e.name and pizza='mushroom'

So you could translate it in:

πage (person p ⋈p.name=e.namepizza='mushroom'(eats e)))

  • Do I have to change it to its equivalent? Can't I do same for the above without being changed? – Babua Pantu Aug 30 '16 at 9:55
  • Certainly. I showed the equivalent SQL Query just for clarity, but you can translate directly your query in the algebra expression. – Renzo Aug 30 '16 at 9:58
  • @BabuaPantu There is no operator IN in any classical version of the relational algebra. – philipxy Aug 30 '16 at 14:52
  • @philipxy, is Marcin Wroblewski's answer above correct as they used belong operator which I never heard is used in relational algebra. – Babua Pantu Aug 31 '16 at 10:34
  • @BabuaPantu As I already commented on your question, you have to tell us what you mean by "relational algebra". If you don't know what you mean, find out from the person who gave you your assignment. (Although if you don't know what a word means, why are you using it?) – philipxy Aug 31 '16 at 15:34

Here's my guess. I'm assuming that set membership symbol is part of relational algebra

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For base table r, C a column of both r & s, and x an unused name,

select ... from r where C in s

returns the same value as

select ... from r natural join (s) x

The use of in requires that s has one column. The in is true for a row of r exactly when its C equals the value in s. So the where keeps exactly the rows of r whose C equals the value in s. We assumed that s has column C, so the where keeps exactly the rows of r whose C equals the C of the row in r. Those are same rows that are returned by the natural join.

(For an expression like this where-in with C not a column of both r and s then this translation is not applicable. Similarly, the reverse translation is only applicable under certain conditions.)

How useful this particular translation is to you or whether you could simplify it or must complexify it depends on what variants of SQL & "relational algebra" you are using, what limitations you have on input expressions and other translation decisions you have made. If you use very straightforward and general translations then the output is more complex but obviously correct. If you translate using a lot of special case rules and ad hoc simplifications along the way then the output is simpler but the justification that the answer is correct is longer.

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